New SERS-active junction based on cerium dioxide facet dielectric films for biosensing

New SERS-active junction based on cerium dioxide facet dielectric films for biosensing

Further enhance of the Raman scattering is the priority for the development of the modern molecular diagnostic methods. Expected increasing in detection sensitivity of the biological and chemical agents provides substantial progress in such areas as: proteomics (discovery of new disease markers), p...

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Bibliographic Details
Main Authors: I. Kurochkin, I. Ryzhikov, A. Sarychev, K. Afanasiev, I. Budashov, M. Sedova, I. Boginskaya, S. Amitonov, A. Lagarkov
Format: Article
Language:English
Published: Advanced Electromagnetics 2014-10-01
Series:Advanced Electromagnetics
Subjects:
Metamaterials
SERS
plasmonic nanoparticles
local fields
biosensing
Online Access:https://aemjournal.org/index.php/AEM/article/view/266
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spelling doaj-e160e926d61c417288f71a74fe1a3af72020-11-25T02:39:33ZengAdvanced ElectromagneticsAdvanced Electromagnetics2119-02752014-10-013110.7716/aem.v3i1.266266New SERS-active junction based on cerium dioxide facet dielectric films for biosensingI. Kurochkin0I. RyzhikovA. SarychevK. AfanasievI. BudashovM. SedovaI. BoginskayaS. AmitonovA. LagarkovLomonosov Moscow State University Further enhance of the Raman scattering is the priority for the development of the modern molecular diagnostic methods. Expected increasing in detection sensitivity of the biological and chemical agents provides substantial progress in such areas as: proteomics (discovery of new disease markers), pharmacokinetics of drugs, analysis of toxins and infections agents, drug analysis, food safety, and environmental safety. In this paper we investigated the possibility of the facet structures, based on cerium dioxide to further enhance the SERS signal. During the studies a new metamaterial was developed. The metamaterial is based on the facet cerium dioxide films and plasmonic nanoparticles that are immobilized on its surface. The new metamaterial provides additional SERS signal amplification factor of 211. Thus developed material offers the prospect of increasing the sensitivity and selectivity of biochemical and immunological analysis. https://aemjournal.org/index.php/AEM/article/view/266MetamaterialsSERSplasmonic nanoparticleslocal fieldsbiosensing
collection DOAJ
language English
format Article
sources DOAJ
author I. Kurochkin
I. Ryzhikov
A. Sarychev
K. Afanasiev
I. Budashov
M. Sedova
I. Boginskaya
S. Amitonov
A. Lagarkov
spellingShingle I. Kurochkin
I. Ryzhikov
A. Sarychev
K. Afanasiev
I. Budashov
M. Sedova
I. Boginskaya
S. Amitonov
A. Lagarkov
New SERS-active junction based on cerium dioxide facet dielectric films for biosensing
Advanced Electromagnetics
Metamaterials
SERS
plasmonic nanoparticles
local fields
biosensing
author_facet I. Kurochkin
I. Ryzhikov
A. Sarychev
K. Afanasiev
I. Budashov
M. Sedova
I. Boginskaya
S. Amitonov
A. Lagarkov
author_sort I. Kurochkin
title New SERS-active junction based on cerium dioxide facet dielectric films for biosensing
title_short New SERS-active junction based on cerium dioxide facet dielectric films for biosensing
title_full New SERS-active junction based on cerium dioxide facet dielectric films for biosensing
title_fullStr New SERS-active junction based on cerium dioxide facet dielectric films for biosensing
title_full_unstemmed New SERS-active junction based on cerium dioxide facet dielectric films for biosensing
title_sort new sers-active junction based on cerium dioxide facet dielectric films for biosensing
publisher Advanced Electromagnetics
series Advanced Electromagnetics
issn 2119-0275
publishDate 2014-10-01
description Further enhance of the Raman scattering is the priority for the development of the modern molecular diagnostic methods. Expected increasing in detection sensitivity of the biological and chemical agents provides substantial progress in such areas as: proteomics (discovery of new disease markers), pharmacokinetics of drugs, analysis of toxins and infections agents, drug analysis, food safety, and environmental safety. In this paper we investigated the possibility of the facet structures, based on cerium dioxide to further enhance the SERS signal. During the studies a new metamaterial was developed. The metamaterial is based on the facet cerium dioxide films and plasmonic nanoparticles that are immobilized on its surface. The new metamaterial provides additional SERS signal amplification factor of 211. Thus developed material offers the prospect of increasing the sensitivity and selectivity of biochemical and immunological analysis.
topic Metamaterials
SERS
plasmonic nanoparticles
local fields
biosensing
url https://aemjournal.org/index.php/AEM/article/view/266
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